LEADER 00981nam a2200277 i 4500
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035   $aLE00643087$9ExL
040   $aDip.to Fisica$bita
084   $a53.6.5
084   $a530.44
084   $aQC718
100 1 $aDelcroix, J.L.$0463336
245 10$aPhysique des plasmas /$cJ.L. Delcroix
260   $aParis :$bDunod,$c1963
300   $a2 v. (292, 203 p.); 16 cm.
650  4$aPlasma (Ionized gases)
907   $a.b10181593$b21-09-06$c27-06-02
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996   $aPhysique des plasmas$9190768
997   $aUNISALENTO
998   $ale006$b01-01-95$cm$da  $e-$ffre$gfr $h0$i2

LEADER 05313nam  2201417z- 450 
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035   $a(CKB)5680000000037706
035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/81120
035   $a(oapen)doab81120
035   $a(EXLCZ)995680000000037706
100   $a20202205d2022      |y         0
101 0 $aeng
135   $aurmn|---annan
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 00$aSoil-Water Conservation, Erosion, and Landslide
210   $aBasel$cMDPI - Multidisciplinary Digital Publishing Institute$d2022
215   $a1 online resource (392 p.)
311 08$a3-0365-3432-6 
311 08$a3-0365-3431-8 
330   $aThe predicted climate change is likely to cause extreme storm events and, subsequently, catastrophic disasters, including soil erosion, debris and landslide formation, loss of life, etc. In the decade from 1976, natural disasters affected less than a billion lives. These numbers have surged in the last decade alone. It is said that natural disasters have affected over 3 billion lives, killed on average 750,000 people, and cost more than 600 billion US dollars. Of these numbers, a greater proportion are due to sediment-related disasters, and these numbers are an indication of the amount of work still to be done in the field of soil erosion, conservation, and landslides. Scientists, engineers, and planners are all under immense pressure to develop and improve existing scientific tools to model erosion and landslides and, in the process, better conserve the soil. Therefore, the purpose of this Special Issue is to improve our knowledge on the processes and mechanics of soil erosion and landslides. In turn, these will be crucial in developing the right tools and models for soil and water conservation, disaster mitigation, and early warning systems.
606   $aEnvironmental science, engineering and technology$2bicssc
606   $aTechnology: general issues$2bicssc
610   $aalpine meadow
610   $aalpine swamp meadow
610   $abreach model
610   $abridge pier
610   $aclimate change
610   $adam breach
610   $adebris flow
610   $adeciduous broadleaved tree
610   $adeep lip surface
610   $aDeep Neural Network
610   $adegradation of riparian vegetation
610   $adendrogeomorphology
610   $aearth system science
610   $aextreme events
610   $aextreme rainfall
610   $aextreme rainfall-induced landslide susceptibility model
610   $aextreme weather
610   $afeature selection
610   $aflume test
610   $aGaussian process
610   $agrey correlation analysis
610   $agully erosion
610   $ahillslopes
610   $ahydrologic model
610   $aICU
610   $aimage classification
610   $aJiuzhaigou Valley
610   $alaboratory model test
610   $aLancang-Mekong River basin
610   $aland cover changes
610   $aland use
610   $alandform change impact on pier
610   $alandslide
610   $alandslide activity
610   $alandslide evolution
610   $alandslide hotspots
610   $alandslide probability model
610   $alandslide ratio-based logistic regression
610   $aloess
610   $amachine learning
610   $amechanical behavior
610   $amitigation countermeasures
610   $aMUSCL-Hancock method
610   $an/a
610   $anaive Bayes
610   $aoutburst flood
610   $aoverfall
610   $aovertopping
610   $apore structure
610   $aPSED Model
610   $aradial basis function kernel
610   $arainfall erosivity factor
610   $arainfall threshold
610   $arill erosion
610   $aroot distribution
610   $aroot system
610   $aRUSLE
610   $asafety factor
610   $ascour
610   $asediment yield
610   $aseepage
610   $aseismic signal
610   $ashallow landslides
610   $ashallow water equations
610   $aShirakami Mountains
610   $asimulated annealing
610   $asoil erodibility
610   $asoil erosion
610   $asoil management
610   $aspatiotemporal cluster analysis
610   $aspectrum similarity analysis
610   $astatic liquefaction
610   $asusceptibility
610   $aSyria
610   $aTaiwan
610   $atensile crack
610   $atensile strength
610   $atree ring
610   $aTVD-scheme
610   $aTyphoon Morakot
610   $aUSLE R
610   $avegetation community
610   $avegetation importance value
610   $avegetation restoration
610   $awater erosion
610   $aweighted subspace random forest
610   $awet-dry front
610   $aZechawa Gully
615  7$aEnvironmental science, engineering and technology
615  7$aTechnology: general issues
700   $aChen$b Su-Chin$4edt$01326297
702   $aChen$b Su-Chin$4oth
906   $aBOOK
912   $a9910566467403321
996   $aSoil-Water Conservation, Erosion, and Landslide$93037278
997   $aUNINA